Light  Indoor plants are classified according to the amount of light needed for growth: low (min ft-c, for good growth) low (min ft-c, for good growth) medium (min ft-c, preferred) medium (min ft-c, preferred) high (min ft-c, preferred) high (min ft-c, preferred) very high (min ft-c, preferred). very high (min ft-c, preferred).  Commercial producers supply this information in general terms on the label with which the plant is sold.

East is Best  Which windows provide how much light ?  Windows with eastern exposures receive direct morning light from sunrise until nearly midday.  Footcandle readings at these windows can reach 5,000-8,000. As the morning progresses, the direct sun recedes from the room.

East is Best  Most plants grown indoors prefer an eastern exposure. Light from the east is cooler than that from the south or west, and causes less water loss from the plants.  An eastern room is cooler compared to south or west rooms because the house absorbs less radiant heat.

 The seasonal variation in southern light is greater than any other exposure.  The low winter sun shines across the room for most of the daylight hours. The Sunny South  On a bright, sunny winter day this exposure provides greenhouse-like conditions.

The Sunny South  If there is a wide overhang outside, the sun may not enter the room at all.  The amount of light that enters a southern window is only a portion of the available light outdoors on a clear day.  In the summer, when the sun is farther north than in the winter, the sun rises at a sharp angle in the morning and is high in the sky by noon. Direct light comes into a south window only at midday.

The Sunny South  Southern and western exposures are interchangeable for most plants.  In the winter, most plants but those with definite preference for northern exposure can be placed in a room with southern exposure.  The sun at noon on a summer day may measure 10,000 ft-c. Indoors, however, a southern window with wide eaves outside will receive about the same amount of light as a window with northern exposure.

 Since the USA is in the northern hemisphere, it receives most of its sunlight from the south.  Out of the four exposures, the northern exposure receives the least light and least heat the year round. The Cool North  Because of the low light, maintaining healthy plants can be a challenge. A northern windowsill can measure light levels as low as 200 ft-c on a clear winter day.

The Cool North  Some indoor plants can tolerate it, others prefer this exposure, e.g. African violets.  This exposure is best for plants with green foliage because the coloration on variegated foliage tends to disappear under low light conditions.  Although most plants grown indoors will not grow in a northern room, they may tolerate it for short periods of time.

How Do You Know that Your Plant is not Getting Enough Light ? Light 1)The internodes (spaces between leaves) are much longer than the internodes on the older part of the plant. 2) The new leaves are much smaller than older leaves. 3) The leaf color is a lighter green on the newer foliage than on the older foliage. 4) The older leaves may die.

Phototropism The directional growth of plant parts toward light; if allowed to continue mature tissue will have a fixed curvature. Example: Schefflera, Spathiphyllum, Aglaonema. The directional growth of plant parts toward light; if allowed to continue mature tissue will have a fixed curvature. Example: Schefflera, Spathiphyllum, Aglaonema. Treatment: turn the plant a quarter turn every few days. Treatment: turn the plant a quarter turn every few days.

Biological Activities (Most Organisms) Interior Plants Human Comfort 32 o F 77 o F 100 o F 58 o F 86 o F 72 o F 82 o F  Temperature

 During summer, air conditioning in a house may be turned off at night or weekend thermostat settings raised and that could result in higher than desirable night temperatures.  During winter, heating may be turned off at night or weekend thermostats settings lowered and that could result in lower night temperatures.  Be especially careful not to allow temperatures to drop below 50 o F or chill damage will result on some sensitive foliage plants (e.g. Aglaonema).  Temperature

 Plants vary in their minimum and maximum requirements.  Cool loving plants (for locations where temperatures drop to the low 50’s at night and 60’s during the day):  Temperature Cyclamen, Fatshedera (Wonder Plant), Fatsia (Japanese Aralia) Cyclamen, Fatshedera (Wonder Plant), Fatsia (Japanese Aralia)

 Some tropical plants will do best if temperatures are 90 o -95 o F.  Such temperatures in interiors are detrimental, especially if light levels are low.  Temperature

70 o - 80 o F day 65 o - 70 o F night  The best temperature range for indoor plants is:

Relative Humidity  Relative humidity is the amount of moisture contained in the air.  For interior plants relative humidity below 20% is considered “low”, up to 40-50% is medium, and above 50% is high.

Relative Humidity Effect of relative humidity on a plant leaf Effect of relative humidity on a plant leaf   Relative Humidity = Relative Humidity = H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O 70 0 F 10% 50%

Relative Humidity Effect of relative humidity and air temperature on a plant leaf Effect of relative humidity and air temperature on a plant leaf   Relative Humidity = 50% Relative Humidity = 50% H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O H2OH2OH2OH2O 90 0 F 70 0 F H2OH2OH2OH2O H2OH2OH2OH2O

Relative Humidity  Very important factor, easily overlooked. In the greenhouse relative humidity is 50% or higher. Rapid transpiration and water loss could result when newly purchased plants are placed in 10-20% relative humidity (house).  Help your plants by manipulating the microenvironment around them in one of the following ways.

Relative Humidity placing plants close together placing plants close together placing a shallow water container with lava rock or gravel near the plants placing a shallow water container with lava rock or gravel near the plants using a humidifier using a humidifier spraying water around the plants. spraying water around the plants.  Elevate the relative humidity by:

When and How to Water Your Plants CONSIDERATIONS:  Plant type.  Plant size.  Container volume.  Soil moisture.  Indoor environment.

When and How to Water Your Plants  Many problems can be traced to improper watering.  You should feel the soil – push your finger an inch or so below the surface; if it is still moist do not water.  “Watering meters” are available.  Containers with saucers will result in a rapid build-up of soluble salts, causing root rot and growth decline. discard any water in the saucer after each irrigation discard any water in the saucer after each irrigation once a month apply large quantities of water to the soil (called leaching). once a month apply large quantities of water to the soil (called leaching).

Water Quality  Plants differ in their tolerance to certain chemical additives commonly found in drinking water, e.g. fluorine (fluoride).  Check level of fluorine in the water supply, and if high, do not use on susceptible plants, e.g. dracaenas and cordylines.  Do not use plants susceptible to chlorine (chloride) around pools, e.g. dracaenas and cordylines.  In these plants, leaf necrosis will occur if exposed to high levels of fluorine and/or chlorine.

Fluoride Damage on Dracaena and Cordyline